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Tuesday, October 16, 2018

The Army May Have Found Its Next Rifle In A Colorado Garage

This appears to be promising. we have had about three generations of work with light rapid fire automatic weapons which lay on the fire power but always give up accuracy. This often means a loss of reliability as well. The AK 47 stills works well enough in that environment even if it is seventy years old.

Something like this may well solve the reliability problem while throwing real weight down range. My personal standard is still the military Lee - Enfield 303 which has only now been replaced by the Arctic Rangers. The delay was for reasons that i can completely appreciate. The new weapon had to be able to stop a charging polar bear. It is what I want if I were so unfortunate as to face a charging grizzly. Trained hands can lay down an aimed shot every second. A bear is traveling at thirty miles per hour and you are at less than one hundred yards. That means you have about three shots at best and you will not need to breathe.Laying down four rounds from this device may have the same weight and rapid fire ability. Reports have suggested that anything less is likely fatal even if you pepper the bear with a large mag of smaller ammunition..

The Army May Have Found Its Next Rifle In A Colorado Garage

By Tom Roeder, The Gazette (Colorado Springs, Colo.) on October 1, 2018

The Army adopted its battle rifle in 1963 and has spent 55 years looking for a replacement for the M-16 and its variants.

They might have found it in Martin Grier’s Colorado Springs garage. Grier, a self-described inventor who has worked at a local bed and breakfast, built the new “ribbon gun” with a hobbyist’s tools. It looks like a space-age toy drawn by a fifth-grader.

But goofy origins and cartoon-looks aside, this could be the gun of the future. The Army is studying Grier’s gun and has ordered a military-grade prototype.

The specifications are incredible, four 6 mm barrels cut side by side within one steel block. New ammunition blocks fired by electromagnetic actuators that could theoretically give the weapon a firing rate of 250 rounds per second.

And then there’s the feature no soldier would turn down. “It’s called a power shot,” Grier said.

That’s the shotgun feature of this sniper-shot, machine-assault gun that can send four bullets simultaneously whizzing toward an enemy at more than 2,500 mph.

It isn’t science fiction. He’s built the gun and patented the technology behind it. Now his garage-based company, FD munitions, is hoping the Army will buy it.

“A multibore firearm, with several bores within a single barrel, could potentially exhibit many of the advantages of a multibarrel design, while reducing the size, weight and complexity disadvantages,” Grier wrote in his 2016 patent application.

He got the idea in the 1990s after a day of shooting a .22-caliber rifle with his kids.

Modern weapons aren’t that far removed from the ones used by George Washington’s army, Grier says. They use a mechanical firing mechanism that’s prone to failure. And from muskets to the AK-47, they fire one bullet at a time.

“What if a rifle could fire more than one bullet at a time and be tied to the tools of the electronic age?” he wondered.

His first invention changed the ammunition. Rather than a single shell casing, his bullets are encapsulated in blocks.

In a block with four rounds, each round is aligned with a barrel. Grier prefers to call them “bores,” because all of the barrels are in a single piece of metal.

The second invention is behind the bullet. In other rifles, the trigger is connected to a mechanical trigger pin, which fires the gunpowder and sends the bullet flying.

In his weapon, the trigger is an electronic switch that sends a signal to an electromagnetic actuator behind the block of bullets. The four bullets in the block of rounds each has its actuator. That means you fire the rounds individually or simultaneously.

Selecting the “power shot” option fires all four bullets at once.

Getting this to work requires a new kind of machining to get the four rifle bores lined up. In a traditional weapon, this is accomplished with technology that would be familiar to 19th-century blacksmiths — a drill.

With Grier’s gun, the barrels are cut by electricity that runs between a pair of electrodes through a thin wire. The high-tech method offers an incredible degree of precision thanks to computer control.

The first rifle, which weighs about 6½ pounds, slightly less than the M-16, hasn’t been cheap. Grier has poured more than $500,000 of his savings and investment by others into the working prototype.

But by having a functioning weapon, he has drawn a lot of attention.

Grier has been asked to create a prototype to Army specifications for testing. The Army will run the rifle through its paces to determine if his idea is worthy of the battlefield.

Grier said he finds motivation for the weapon in every attack on U.S. troops overseas. While the U.S. owns the skies and has satellites and missiles that are beyond compare, American troops have few advantages in a stand-up rifle fight.

“Our guys have the same junk weapons as our adversaries,” he said.

But Grier’s ribbon gun, which can work even if one of the four barrels fails, will change that, he said.

“I want to give them a Clint Eastwood kind of edge.”

Getting the weapon in the hands of troops could take years. The Army’s requirements are backed by grueling tests.

The last rifle that was seen as a possible replacement for the M-16 family of guns was tested for six years before the program was canceled in 2008.

The Army found that the XM-8, despite its high-tech looks, offered few advantages over the weapons troops have carried since Vietnam.

Grier is convinced that his weapon is so revolutionary that it will overcome Army foot-dragging.

“This is the future,” he said.

And he’s not apologizing for the rifle’s humble origins in a Colorado Springs garage.

1 comment:

Anyone who knows beans about firearms will question the materials used to make a multi-barrel rifle pushing "normal" rifle velocities coming in at sub-7 lbs.

Visit the "inventor's" website. Long on promo, short on explanations of how his caseless ammo works, how the 50,000 to 60,000 psi of firing is contained, and above all what is this multiple-bore barrel made of, given that even a steel lining in each would surely break the 10-lb barrier.

This guy claims to have solved (1) the caseless ammo problem and (2) the requirement for steel as a barrel material. It all sounds very much like the "cold fusion" of Fleischmann and Pons back in 1989.

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